Gamma functions and i just need 14 and 17 i want to know how to work them out
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Gamma functions and i just need 14 and 17 i want to know how to
work...
I know A is 3.544x10^-14 but I do not know how to solve for the rest...
I know A is 3.544x10^-14 but I
do not know how to solve for the rest
A proton is located at the origin, and a second proton is located on the x-axis at x,-6.50 fm (1 fm-10-15 m) (a) Calculate the electric potential energy associated with this configuration. 10-27 kg b) An alpha particle charge configuration. 2e, mass = 6.64 is now placed at x2 y2 325 3.25 m Calculate he electric potentia energy associated with this (c) Starting with...
est particle of soil - Googie x Farris Rafique's Quiz History: Ho x G work equation...
est particle of soil - Googie x Farris Rafique's Quiz History: Ho x G work equation - Google S e.com/courses/162718/quizzes/144982/history2version-1 Question 7 0/0.2 pts How much work in joules was done to increase the velocity of a 3 kg ball from 7 m/s to 18 m/s? HINT: Use the Work-Kinetic Energy Theorem formula Wnet KEy - KE 137.5 0/0.08 pts rect Question 8 Complete the following statements by choosing the correct answer from the oog ×: G smallest particle of...
How much work must we do on an electron to move it from point A, which...
How much work must we do on an electron to move it from point A, which is at a potential of +50V, to point B, which is at a potential of -50V, along the semicircular path shown in the figure? Assume the system is isolated from outside forces (e = 1.60 times 10^-19C) 1.60 times 10^-17 J -1.60 times 10^-17 J 1.6 J -1.6 J This cannot be determined because we do not know the distance traveled. If an electron...
this is the whole question which has 17 parts. I only need question (9-17) 6. A...
this is the whole question which has 17 parts. I only need
question (9-17)
6. A 50.0 kg man standing on a spring scale takes a descending elevator ride (DOWNWARD). Starting from the rest, the elevator descends, attaining a maximum speed of 6.0 m/s in 2.0 seconds. Then the elevator travels with this constant speed of 6.0 m/s for 10.0 seconds. Lastly, it takes the elevator 3.0 second to make a complete stop. Based on the information above, answer the...
8.4 The Two-Dimensional Central-Force Problem The 2D harmonic oscillator is a 2D central force pr...
8.4 The Two-Dimensional Central-Force Problem The 2D harmonic oscillator is a 2D central force problem (as discussed in TZD Many physical systems involve a particle that moves under the influence of a central force; that is, a force that always points exactly toward, or away from, a force center O. In classical mechanics a famous example of a central force is the force of the sun on a planet. In atomic physics the most obvious example is the hydrogen atom,...
BIG UPVOTE FOR RIGHT ANSWER Viscous fluid flow 2nd edition Frank White I need answer of...
BIG UPVOTE FOR RIGHT ANSWER
Viscous fluid flow 2nd edition Frank White
I need answer of 2.17
I have attached 2.14 question and solution for reference.
2.17 As an extension of Prob. 2-14, consider the heat-transfer
aspect by assuming a uniform entrance profile T = To and an exit
profile approximated by T(r) = T0(1.5 + 0.5r2/ri). For flow with
constant (p, F, cp, k) and negligible kinetic- and potential-energy
changes, use the integral relations to compute the total heat...
Please answer (c) and (d). I will rate your response. :) Class Management Help HW 3...
Please answer (c) and (d). I will rate your response. :)
Class Management Help HW 3 - Electric Potential Begin Date: 1/15/2019 9:00:00 AM - Due Date: 2/10/2019 11:59:00 PM End Date: 5/18/2019 7:00:00 PM V l is 35 V. The potential at point 2.V2. is 173 V (6%) Problem 4: Consider two points in an electric field. The potential at point l An electron at rest at point 1 is accelerated by the electric field to point 2 Assignment...
6-6 6-17 6-18 please help me, how could solve these problems In chemical kinetics and other...
6-6
6-17
6-18
please help me, how could solve these problems
In chemical kinetics and other types of rate processes, you frequently encounter with the initial condition m(0) == 2 6-4 B representing the interconversion of two species, A and B. The the scheme A rate equation for this interconversion can be written as dA/dt = -k\A + kąB, where k and kz are called rate constants. By conservation of mass, A(t)+B(t) = AoBo, where Aq = A(0) and Bọ...
I want a solution to the whole matrix, not just the diagonal, in detail until I...
I want a solution to the whole matrix, not just the diagonal,
in detail until I reach the final solution!
In the discussion of the intermediate Zeeman effect, you learned that both the Zeeman effect and the fine structure effect must be treated on an equal footing. That is, one forms the Hamiltonian matrix of i' = H + Hy then diagonalises it to obtain the perturbed energy states. As an example, we looked into the n = 2 states...
answer all multiple choice please 1 12. A tiny spherical water drop has a charge of 3.00 X 10'15C. How many excess electrons are on the drop? b.2.25X10c. 1.6X 01 d. 1.87 X 10 13. A wire contain...
answer all multiple choice please
1 12. A tiny spherical water drop has a charge of 3.00 X 10'15C. How many excess electrons are on the drop? b.2.25X10c. 1.6X 01 d. 1.87 X 10 13. A wire contains a steady eurrent of 0.75 A. The charge that passes a cross section in 3 s is: e. 3.35 C d, 225 С b, 6.4 x 10-1, С с.1.55 С a32x10", С 14. An electric field with a magnitude of 5 X...
I know A is 3.544x10^-14 but I
do not know how to solve for the rest
A proton is located at the origin, and a second proton is located on the x-axis at x,-6.50 fm (1 fm-10-15 m) (a) Calculate the electric potential energy associated with this configuration. 10-27 kg b) An alpha particle charge configuration. 2e, mass = 6.64 is now placed at x2 y2 325 3.25 m Calculate he electric potentia energy associated with this (c) Starting with...
est particle of soil - Googie x Farris Rafique's Quiz History: Ho x G work equation - Google S e.com/courses/162718/quizzes/144982/history2version-1 Question 7 0/0.2 pts How much work in joules was done to increase the velocity of a 3 kg ball from 7 m/s to 18 m/s? HINT: Use the Work-Kinetic Energy Theorem formula Wnet KEy - KE 137.5 0/0.08 pts rect Question 8 Complete the following statements by choosing the correct answer from the oog ×: G smallest particle of...
How much work must we do on an electron to move it from point A, which is at a potential of +50V, to point B, which is at a potential of -50V, along the semicircular path shown in the figure? Assume the system is isolated from outside forces (e = 1.60 times 10^-19C) 1.60 times 10^-17 J -1.60 times 10^-17 J 1.6 J -1.6 J This cannot be determined because we do not know the distance traveled. If an electron...
this is the whole question which has 17 parts. I only need
question (9-17)
6. A 50.0 kg man standing on a spring scale takes a descending elevator ride (DOWNWARD). Starting from the rest, the elevator descends, attaining a maximum speed of 6.0 m/s in 2.0 seconds. Then the elevator travels with this constant speed of 6.0 m/s for 10.0 seconds. Lastly, it takes the elevator 3.0 second to make a complete stop. Based on the information above, answer the...
8.4 The Two-Dimensional Central-Force Problem The 2D harmonic oscillator is a 2D central force problem (as discussed in TZD Many physical systems involve a particle that moves under the influence of a central force; that is, a force that always points exactly toward, or away from, a force center O. In classical mechanics a famous example of a central force is the force of the sun on a planet. In atomic physics the most obvious example is the hydrogen atom,...
BIG UPVOTE FOR RIGHT ANSWER
Viscous fluid flow 2nd edition Frank White
I need answer of 2.17
I have attached 2.14 question and solution for reference.
2.17 As an extension of Prob. 2-14, consider the heat-transfer
aspect by assuming a uniform entrance profile T = To and an exit
profile approximated by T(r) = T0(1.5 + 0.5r2/ri). For flow with
constant (p, F, cp, k) and negligible kinetic- and potential-energy
changes, use the integral relations to compute the total heat...
Please answer (c) and (d). I will rate your response. :)
Class Management Help HW 3 - Electric Potential Begin Date: 1/15/2019 9:00:00 AM - Due Date: 2/10/2019 11:59:00 PM End Date: 5/18/2019 7:00:00 PM V l is 35 V. The potential at point 2.V2. is 173 V (6%) Problem 4: Consider two points in an electric field. The potential at point l An electron at rest at point 1 is accelerated by the electric field to point 2 Assignment...
6-6
6-17
6-18
please help me, how could solve these problems
In chemical kinetics and other types of rate processes, you frequently encounter with the initial condition m(0) == 2 6-4 B representing the interconversion of two species, A and B. The the scheme A rate equation for this interconversion can be written as dA/dt = -k\A + kąB, where k and kz are called rate constants. By conservation of mass, A(t)+B(t) = AoBo, where Aq = A(0) and Bọ...
I want a solution to the whole matrix, not just the diagonal,
in detail until I reach the final solution!
In the discussion of the intermediate Zeeman effect, you learned that both the Zeeman effect and the fine structure effect must be treated on an equal footing. That is, one forms the Hamiltonian matrix of i' = H + Hy then diagonalises it to obtain the perturbed energy states. As an example, we looked into the n = 2 states...
answer all multiple choice please
1 12. A tiny spherical water drop has a charge of 3.00 X 10'15C. How many excess electrons are on the drop? b.2.25X10c. 1.6X 01 d. 1.87 X 10 13. A wire contains a steady eurrent of 0.75 A. The charge that passes a cross section in 3 s is: e. 3.35 C d, 225 С b, 6.4 x 10-1, С с.1.55 С a32x10", С 14. An electric field with a magnitude of 5 X...
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